Awesome
Management API for Apache Cassandra®
Introduction
Cassandra operations have historically been command line driven. The management of operational tools for Apache Cassandra have been mostly outsourced to teams who manage their specific environments.
The result is a fragmented and tribal set of best practices, workarounds, and edge cases.
The Management API is a sidecar service layer that attempts to build a well supported set of operational actions on Cassandra nodes that can be administered centrally. It currently works with official Apache Cassandra 3.11.x and 4.0 via a drop in java agent.
- Lifecycle Management
- Start Node
- Stop Node
- Configuration Management (alpha)
- Change YAML
- Change jvm-opts
- Health Checks
- Kubernetes liveness/readiness checks
- Consistency level checks
- Per node actions
- All nodetool commands
Design Principles
- Secure by default
- Simple to use and extend
- CQL Only for all C* interactions
- Operations: Use
CALL
method for invoking via CQL - Observations: Rely on System Views
- Operations: Use
The Management API has no configuration file. Rather, it can only be configured from a small list of command line flags. Communication by default can only be via unix socket or via a http(s) endpoint with optional TLS client auth.
In a containerized setting the Management API represents PID 1 and will be responsible for the lifecycle of Cassandra via the API.
Communication between the Management API and Cassandra is via a local unix socket using CQL as it's only protocol. This means, out of the box Cassandra can be started securely with no open ports! Also, using CQL only means operators can execute operations via CQL directly if they wish.
Each Management API is responsible for the local node only. Coordination across nodes is up to the caller. That being said, complex health checks can be added via CQL.
Supported Image Matrix
The following versions of Cassandra and DSE are published to Docker and supported:
Cassandra 4.0.x | Cassandra 4.1.x | Cassandra 5.0.x | DSE 6.8.x | DSE 6.9.x | HCD 1.0.x |
---|---|---|---|---|---|
4.0.0 | 4.1.0 | 5.0.1 | 6.8.25 | 6.9.0 | 1.0.0 |
4.0.1 | 4.1.1 | 5.0.2 | 6.8.26 | 6.9.1 | |
4.0.3 | 4.1.2 | 6.8.28 | 6.9.2 | ||
4.0.4 | 4.1.3 | 6.8.29 | 6.9.3 | ||
4.0.5 | 4.1.4 | 6.8.30 | 6.9.4 | ||
4.0.6 | 4.1.5 | 6.8.31 | |||
4.0.7 | 4.1.6 | 6.8.32 | |||
4.0.8 | 4.1.7 | 6.8.33 | |||
4.0.9 | 6.8.34 | ||||
4.0.10 | 6.8.35 | ||||
4.0.11 | 6.8.36 | ||||
4.0.12 | 6.8.37 | ||||
4.0.13 | 6.8.38 | ||||
4.0.14 | 6.8.39 | ||||
4.0.15 | 6.8.40 | ||||
6.8.41 | |||||
6.8.42 | |||||
6.8.43 | |||||
6.8.44 | |||||
6.8.46 | |||||
6.8.47 | |||||
6.8.48 | |||||
6.8.49 | |||||
6.8.50 | |||||
6.8.51 | |||||
6.8.52 |
- Apache Cassandra images are available in
linux/amd64
orlinux/arm64
formats. The DSE images are available only in thelinux/amd64
format. - All images (with the exception of Cassandra 5.0) are available as an Ubuntu based image or a RedHat UBI 8 based image. Cassandra 5.0 images are only RedHat UBI8 based.
- All Cassandra 4.0.x, 4.1.x and 5.0.x images come with JDK 11
- All DSE 6.8.x Ubuntu based images are available with either JDK 8 or JDK 11 (you have to pick, only one JDK is installed in an image)
- All DSE 6.8.x RedHat UBI 8 based images come with JDK 8
- All DSE 6.9.x Ubuntu based images come with only JDK 11
- All DSE 6.9.x RedHat UBI 8 based images come with only JDK 11
- HCD images are not built within this repo. Only the Agent for HCD ois maintained within this repo
Java versions in Docker images
As of v0.1.88, all images produced from this repo will have Java 11 installed as the Management API server code must now run with Java 11. For images where the Cassandra/DSE version runs with Java 8 (see above), Both Java 8 and Java 11 will be available, with Java 8 being the default and Java 8 used to run the Cassandra/DSE process.
Cassandra 3.11.x support is now deprecated
Cassandra 3.11.x is no longer supported as of version v0.1.88. Images with Cassandra 3.11 are still available in DockerHub. No new Management API functionality will be released for any Cassandra 3.11 versions going forward and no new Cassandra 3.11.x patch version images will be published going forward. The table below shows the last published Cassandra 3.11.x versions:
Cassandra 3.11.x |
---|
3.11.7 |
3.11.8 |
3.11.11 |
3.11.12 |
3.11.13 |
3.11.14 |
3.11.15 |
3.11.16 |
3.11.17 |
Docker coordinates for Cassandra OSS images
Ubuntu based images (OSS)
For all Ubuntu based OSS Cassandra images, the Docker coordinates are as follows:
k8ssandra/cass-management-api:<version>
Example for Cassandra 4.0.10
k8ssandra/cass-management-api:4.0.10
RedHat UBI 8 based images (OSS)
For all RedHat UBI 8 based OSS Cassandra images, the Docker coordinates are as follows:
k8ssandra/cass-management-api:<version>-ubi8
Example for Cassandra 4.0.10
k8ssandra/cass-management-api:4.0.10-ubi8
Docker coordinates for DSE 6.8.x images
Ubuntu based images (DSE 6.8)
For all JDK 8 Ubuntu based DSE 6.8.x images, the Docker coordinates are as follows:
datastax/dse-mgmtapi-6_8:<version>
Example for DSE 6.8.31
datastax/dse-mgmtapi-6_8:6.8.31
For all JDK 11 Ubuntu based DSE 6.8.x images, the Docker coordinates are as follows:
datastax/dse-mgmtapi-6_8:<version>-jdk11
Example for DSE 6.8.31
datastax/dse-mgmtapi-6_8:6.8.31-jdk11
RedHat UBI 8 based images (DSE 6.8)
For all RedHat UBI 8 based DSE 6.8.x images, the Docker coordinates are as follows:
datastax/dse-mgmtapi-6_8:<version>-ubi8
Example for DSE 6.8.31
datastax/dse-mgmtapi-6_8:6.8.31-ubi8
Docker coordinates for DSE 6.9.x images
Ubuntu based images (DSE 6.9)
For all JDK 11 Ubuntu based DSE 6.8.x images, the Docker coordinates are as follows:
datastax/dse-mgmtapi-6_8:<version>-jdk11
Example for DSE 6.9.0
datastax/dse-mgmtapi-6_8:6.9.0-jdk11
RedHat UBI 8 based images (DSE 6.9)
For all RedHat UBI 8 based DSE 6.9.x images, the Docker coordinates are as follows:
datastax/dse-mgmtapi-6_8:<version>-ubi8
Example for DSE 6.9.0
datastax/dse-mgmtapi-6_8:6.9.0-ubi8
** NOTE: The docker repo is not a typo, it really is datastax/dse-mgmtapi-6_8
for 6.9 images
Docker coordinates for HCD 1.0.x images
Ubuntu based images (HCD 1.0)
For all JDK 11 Ubuntu based HCD 1.0.x images, the Docker coordinates are as follows:
datastax/hcd:<version>
Example for HCD 1.0.0
datastax/hcd:1.0.0
RedHat UBI images (HCD 1.0)
For all RedHat UBI based HCD 1.0.x images, the Docker coordinates are as follows:
datastax/hcd:<version>-ubi
Example for HCD 1.0.0
datastax/hcd:1.0.0-ubi
Building
Minimum Java Version
The project has been updated to now require JDK11 or newer to build. The jarfile artifacts are still compiled to Java8 as Java8 is still what some Cassandra versions ship with.
Containers
First, you will need to have the Docker buildx plugin installed.
To build an image based on the desired Cassandra version see the examples below:
#Create a docker image with management api and C* 4.0 (version 4.0.0 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=4.0.6 --tag mgmtapi-4_0 --file cassandra/Dockerfile-4.0 --target cassandra --platform linux/amd64 .
#Create a docker image with management api and C* 4.1 (version 4.1.0 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=4.1.4 --tag mgmtapi-4_1 --file cassandra/Dockerfile-4.1 --target cassandra --platform linux/amd64 .
# Cassandra 5.0 and newer images are based on RedHat Universal Base Images (see below)
To build a RedHat Universal Base Image (UBI) based Cassandra image, use the ubi8
Dockerfile. Examples:
#Create a UBI8 based image with management api and C* 4.0 (version 4.0.0 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=4.0.6 --tag mgmtapi-4_0_ubi8 --file cassandra/Dockerfile-4.0.ubi8 --target cassandra --platform linux/amd64 .
#Create a UBI8 based image with management api and C* 4.1 (version 4.1.0 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=4.1.4 --tag mgmtapi-4_1_ubi8 --file cassandra/Dockerfile-4.1.ubi8 --target cassandra --platform linux/amd64 .
#Create a UBI8 based image with management api and C* 5.0 (version 5.0.1 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=5.0.2 --tag mgmtapi-5_0_ubi8 --file cassandra/Dockerfile-5.0.ubi8 --target cassandra --platform linux/amd64 .
You can also build OSS Cassandra images for linux/arm64
based platforms. Both Ubuntu and UBI8 based images support this. Simply change the --platform
argument above to --platform linux/arm64
. Examples:
#Create an ARM64 UBI8 based image with management api and C* 4.0 (version 4.0.0 and newer are supported)
docker buildx build --load --build-arg CASSANDRA_VERSION=4.0.6 --tag mgmtapi-4_0_ubi8-arm --file cassandra/Dockerfile-4.0.ubi8 --target cassandra --platform linux/arm64 .
To build an image based on DSE, see the DSE README.
Standalone
mvn -DskipTests package
mvn test
mvn integration-test -Drun3.11tests=true -Drun4.0tests=true
NOTE 1: Running integration-test
s will also run unit tests.
NOTE 2: Running integration-test
s requires at least one of -Drun3.11tests
, -Drun3.11testsUBI
, -Drun4.0tests
, -Drun4.0testsUBI
, -Drun4.1tests
, -Drun4.1testsUBI
, -Drun5.0testsUBI
, -DrunDSE6.8tests
, -DrunDSE6.8testsUBI
, -DrunDSE6.9tests
, or -DrunDSE6.9testsUBI
to be set to true
(you can set any combination of them to true
).
NOTE 3: In order to run DSE integration tests, you must also enable the dse
profile:
mvn integration-test -P dse -DrunDSE6.8tests=true
Cassandra trunk
For building an image based on the latest from Cassandra trunk, see this README.
DSE 6.8.x/6.9.x
For building an image based on DSE 6.8, see the DSE 6.8 README.
For building an image based on DSE 6.9, see the DSE 6.9 README.
REST API
The current Swagger/OpenAPI documentation
Also readable from url root: /openapi.json
Usage
As of v0.1.24, Management API Docker images for Apache Cassandra are consolidated into a single image repository here:
For different Cassandra versions, you will need to specify the Cassandra version as an image tag. See the supported image matrix above.
Each of the above examples will always point to the latest Management API version for the associated Cassandra version. If you want a specific Management API version, you can append the desired version to the Cassandra version tag. For example, if you want v0.1.24 of Management API for Cassandra version 3.11.9:
docker pull k8ssandra/cass-management-api:3.11.9-v0.1.24
For Management API versions v0.1.23 and lower, you will need to use the old Docker repositories, which are Cassandra version specific:
- Management API for Apache Cassandra 3.11.7
- Management API for Apache Cassandra 3.11.8
- Management API for Apache Cassandra 3.11.9
- Management API for Apache Cassandra 3.11.10
- Management API for Apache Cassandra 4.0-beta4.
For DSE Docker images, see the DSE 6.8 README or the DSE 6.9 README.
For running standalone the jars can be downloaded from the github release: Management API Releases Zip
The Management API can be run as a standalone service or along with the Kubernetes cass-operator.
The Management API is configured from the CLI. To start the service with a C* version built above, run:
> docker run -e USE_MGMT_API=true -p 8080:8080 -it --rm mgmtapi-4_0
> curl http://localhost:8080/api/v0/probes/liveness
OK
# Check service and C* are running
> curl http://localhost:8080/api/v0/probes/readiness
OK
Specifying an alternate listen port
By default, all images will listen on port 8080 for Management API connections. This can be overridden by specifying
the environment variable MGMT_API_LISTEN_TCP_PORT
and setting it to your desired port. For example:
> docker run -e USE_MGMT_API=true -e MGMT_API_LISTEN_TCP_PORT=9090 -p 9090:9090 k8ssandra/cass-management-api:4.0.15
The above would run a Cassandra 4.0.15 image with Management API listening on port 9090 (instead of 8080).
Usage with DSE
Please see the DSE 6.8 README or the DSE 6.9 README for details.
Using the Service with a locally installed C* or DSE instance
To start the service with a locally installed C* or DSE instance, you would run the below commands. The Management API will figure out
through --db-home
whether it points to a C* or DSE folder
# REQUIRED: Add management api agent to C*/DSE startup
> export JVM_EXTRA_OPTS="-javaagent:$PWD/management-api-agent/target/datastax-mgmtapi-agent-0.1.0-SNAPSHOT.jar"
> alias mgmtapi="java -jar management-api-server/target/datastax-mgmtapi-server-0.1.0-SNAPSHOT.jar"
# Start the service with a local unix socket only, you could also pass -H http://localhost:8080 to expose a port
> mgmtapi --db-socket=/tmp/db.sock --host=unix:///tmp/mgmtapi.sock --db-home=<pathToCassandraOrDseHome>
# Cassandra/DSE will be started by the service by default unless you pass --explicit-start flag
# Check the service is up
> curl --unix-socket /tmp/mgmtapi.sock http://localhost/api/v0/probes/liveness
OK
# Check C*/DSE is up
> curl --unix-socket /tmp/mgmtapi.sock http://localhost/api/v0/probes/readiness
OK
# Stop C*/DSE
curl -XPOST --unix-socket /tmp/mgmtapi.sock http://localhost/api/v0/lifecycle/stop
OK
Making changes
Code Formatting
Gogle Java Style
The project uses google-java-format and enforces the Google Java Style for all Java source files. The Maven plugin is configured to check the style during compile and it will fail the compile if it finds a file that does not adhere to the coding standard.
Checking the format
If you want to check the formatting from the command line after making changes, you can simply run:
mvn fmt:check
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse fmt:check
Formatting the code
If you want have the plugin format the code for you, you can simply run:
mvn fmt:format
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse fmt:format
Using Checkstyle in an IDE
You can also install a checkstyle file in some popular IDEs to automatically format your code. The Google checkstyle file can be found here: google_checks.xml
Refer to your IDE's documentation for installing and setting up checkstyle.
Source code headers
In addition to Java style formatting, the project also enforces that source files have the correct
header. Source files include .java
, .xml
and .properties
files. The Header should be:
/*
* Copyright DataStax, Inc.
*
* Please see the included license file for details.
*/
for Java files. For XML and Properties files, the same header should exist, with the appropriate comment characters replacing the Java comment characters above.
Just like the Coding style, the Headers are checked at compile time and will fail the compile if they aren't correct.
Checking the headers
If you want to check the headers from the command line after making changes, you can simply run:
mvn license:check
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse license:check
Formatting the code
If you want have the plugin format the headers for you, you can simply run:
mvn license:format
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse license:format
XML formatting
The project also enforces a standard XML format. Again, it is checked at compile time and will fail the compile if XML files are not formatted correctly. See the plugin documentation for formatting details here: https://acegi.github.io/xml-format-maven-plugin/?utm_source=mavenlibs.com
Checking XML file formatting
If you want to check XML files from the command line after making changes, you can simply run:
mvn xml-format:xml-check
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse xml-format:xml-check
Formatting XML files
If you want have the plugin format XML files for you, you can simply run:
mvn xml-format:xml-format
NOTE: If you are making changes in the DSE agent, you need to enable the dse
profile:
mvn -Pdse xml-format:xml-format
Design Summary
The architecture of this repository is laid as follows, front-to-back:
- The
management-api-server/doc/openapi.json
documents the API. - The server implements the HTTP verbs/endpoints under the
management-api-server/src/main/java/com/datastax/mgmtapi/resources
folder (e.g.NodeOpsresources.java
). - The server methods communicate back to the agents using
cqlService.executePreparedStatement()
calls which are routed as plaintext through a local socket. These calls returnResultSet
objects, and to access scalar values within these you are best to call.one()
before checking for nulls and.getObject(0)
. This java object can then be serialized into JSON for return to the client. - The server communicates only with the
management-api-agent-common
sub-project, which holds the un-versionedCassandraAPI
interface. - The
management-api-agent-common/src/main/java/com/datastax/mgmtapi/NodeOpsProvider.java
routes commands through to specific versioned instances ofCassandraAPI
which is implemented in the version 3x/4x subprojects asCassandraAPI4x
/CassandraAPI3x
.
Any change to add endpoints or features will need to make modifications in each of the above components to ensure that they propagate through.
Changes to API endpoints
If you are adding a new endpoint, removing an endpoint, or otherwise changing the public API of an endpoint, you will need to re-generate the OpenAPI/Swagger document. The document lives at management-api-server/doc/openapi.json and is regenerated during the build's compile
phase. If your changes to code cause the API to change, you will need to perform a local mvn compile
to regenerate the document and then add the change to your git commit.
mvn clean compile
git add management-api-server/doc/openapi.json
git commit
API Client Generation
In addition to automatic OpenAPI document generation, a Golang client or a Java client can be generated during the build (unfortunately, only
one of them can be generated at a time, but you can run the process-classes
goal back-to-back to generate them both). The Java client generation
is enabled by default (or can be explicitly enabled with the java-clientgen
Maven profile). The Go client generation is disabled by default
and can be enabled with the go-clientgen
Maven profile. The clients are built using the
OpenAPI Tools generator Maven plugin
and can be used by projects to interact with the Management API. The client generation happens during the process-classes
phase of the Maven build so that changes to the API implementation can be compiled into an OpenAPI document spec file
during the compile phase of the build. The client code is generated in the target
directory under
the management-api-server sub-module and should be located at
management-api-server/target/generated-sources/openapi
To generate the Go client, run the following from the root of the project:
mvn process-classes -P go-clientgen
The Go client code will be generated in management-api-server/target/generated-sources/openapi/go-client
To generate the Java client, run the following from the root of the project:
mvn process-classes -P java-clientgen
or simply:
mvn process-classes
The Java client code will be generated in management-api-server/target/generated-sources/openapi/java-client
Maven coordinates for the Java generated client
This project also has a workflow_dispatch job that will publish the current master
branch version of the Java
generated client to the Datastax public Maven repository. To pull in this artifact in a Maven project, you will
need to add the Datastax Artifactory repository to your Maven settings:
<profiles>
<profile>
<id>datastax</id>
<activation>
<activeByDefault>true</activeByDefault>
</activation>
<repositories>
<repository>
<id>datastax-artifactory</id>
<name>DataStax Artifactory</name>
<releases>
<enabled>true</enabled>
<updatePolicy>never</updatePolicy>
<checksumPolicy>warn</checksumPolicy>
</releases>
<url>https://repo.datastax.com</url>
<layout>default</layout>
</repository>
</repositories>
</profile>
</profiles>
At the current time, the artifact for the Java client will have a version that contains the Git Hash of the commit it was built from. To add the artifact to your Maven project as a dependency, you will need something like this in your pom.xml:
<project>
<dependencies>
<dependency>
<groupId>io.k8ssandra</groupId>
<artifactId>datastax-mgmtapi-client-openapi</artifactId>
<version>0.1.0-9d71b60</version>
</dependency>
</dependnecies>
</project>
where 9d71b60
is the hash of the release you want.
Eventually, this artifact will be published into Maven Central and have a regular release version (i.e. 0.1.0).
Published Docker images
When PRs are merged into the master
branch, if all of the integration tests pass, the CI process will build and publish all supported Docker images with GitHub commit SHA tags. These images are not intended to be used in production. They are meant for facilitating testing with dependent projects.
The format of the Docker image tag for OSS Cassandra based images will be <Cassandra version>-<git commit sha>
. For example, if the SHA for the commit to master is 3e99e87
, then the Cassandra 3.11.11 image tag would be 3.11.11-3e99e87
. The full docker coordinates would be k8ssandra/cass-management-api:3.11.11-3e99e87
. Once published, these images can be used for testing in dependent projects (such as cass-operator). Testing in dependent projects is a manual process at this time and is not automated.
Official Release process
When the master
branch is ready for release, all that needs to be done is to create a git tag
and push the tag. When a git tag is pushed, a GitHub Action will kick off that builds the release versions of the Docker images and publish the to DockerHub. The release tag should be formatted as:
v0.1.X
where X
is incremental for each release. If the most recent release version is v0.1.32
, then to cut the next (v0.1.33) release, do the following:
git checkout master
git pull
git tag v0.1.33
git push origin refs/tags/v0.1.33
Once the tag is pushed, the release process will start and build the Docker images as well as the Maven artifacts. The images are automatically pushed to DockerHub and the Maven artifacts are published and attached to the GitHub release.
CLI Help
The CLI help covers the different options:
mgmtapi --help
NAME
cassandra-management-api - REST service for managing an Apache
Cassandra or DSE node
SYNOPSIS
cassandra-management-api
[ {-C | --cassandra-home | --db-home} <db_home> ]
[ --explicit-start <explicit_start> ] [ {-h | --help} ]
{-H | --host} <listen_address>...
[ {-K | --no-keep-alive} <no_keep_alive> ]
[ {-p | --pidfile} <pidfile> ]
{-S | --cassandra-socket | --db-socket} <db_unix_socket_file>
[ --tlscacert <tls_ca_cert_file> ]
[ --tlscert <tls_cert_file> ] [ --tlskey <tls_key_file> ]
OPTIONS
-C <db_home>, --cassandra-home <db_home>, --db-home <db_home>
Path to the Cassandra or DSE root directory, if missing will use
$CASSANDRA_HOME/$DSE_HOME respectively
This options value must be a path on the file system that must be
readable, writable and executable.
--explicit-start <explicit_start>
When using keep-alive, setting this flag will make the management
api wait to start Cassandra/DSE until /start is called via REST
-h, --help
Display help information
-H <listen_address>, --host <listen_address>
Daemon socket(s) to listen on. (required)
-K <no_keep_alive>, --no-keep-alive <no_keep_alive>
Setting this flag will stop the management api from starting or
keeping Cassandra/DSE up automatically
-p <pidfile>, --pidfile <pidfile>
Create a PID file at this file path.
This options value must be a path on the file system that must be
readable and writable.
-S <db_unix_socket_file>, --cassandra-socket <db_unix_socket_file>,
--db-socket <db_unix_socket_file>
Path to Cassandra/DSE unix socket file (required)
This options value must be a path on the file system that must be
readable and writable.
--tlscacert <tls_ca_cert_file>
Path to trust certs signed only by this CA
This options value must be a path on the file system that must be
readable.
--tlscert <tls_cert_file>
Path to TLS certificate file
This options value must be a path on the file system that must be
readable.
--tlskey <tls_key_file>
Path to TLS key file
This options value must be a path on the file system that must be
readable.
COPYRIGHT
Copyright (c) DataStax 2020
LICENSE
Please see https://www.apache.org/licenses/LICENSE-2.0 for more
information
Roadmap
- CQL based configuration changes
- Configuration as system table
License
Copyright DataStax, Inc.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
Dependencies
For information on the packaged dependencies of the Management API for Apache Cassandra® and their licenses, check out our open source report.